Proceedings ArticleDOI
Design of Secured Block Ciphers PRESENT and HIGHT Algorithms and its FPGA Implementation
R.S. Mahantesh,Sasmita Mohapatra +1 more
TLDR
A new hardware architecture design has been developed here for both PRESENT and HIGHT, and a significant design optimization has been achieved for HIGHT and asignificant throughput has be achieved for PRESENT.Abstract:
Light weight cryptography is a technology for providing the security solutions for the hardware systems where there is no computational resource or limited resource. PRESENT and HIGHT are a class of lightweight block ciphers which uses two different ways of computational structure for cipher generation. The paper presents the design and FPGA implementation of the two cryptographic structures PRESENT and HIGHT. A new hardware architecture design has been developed here for both PRESENT and HIGHT. A comparative analysis of the presented designs PRESENT and HIGHT have been done with the existing designs. A significant design optimization has been achieved for HIGHT and a significant throughput has been achieved for PRESENT.read more
Citations
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Midori: A Block Cipher for Low Energy
Subhadeep Banik,Andrey Bogdanov,Takanori Isobe,Kyoji Shibutani,Harunaga Hiwatari,Toru Akishita,Francesco Regazzoni +6 more
TL;DR: In this paper, the authors proposed two energy-efficient block ciphers, Midori128i¾? and Midori64i ¾? with block sizes equal to 128 and 64 bits respectively.
Performance Comparison of Software-Efficient Implementations of the PRESENT Block Cypher
TL;DR: In this article , three software techniques for implementing PRESENT block cypher, namely direct, wide table and combined wide table, are compared in KEIL MDK IDE and ARM Cortex-M3-based LPC1768 IoT development platform.
Proceedings ArticleDOI
PRESENT Hardware Implementation for Concurrent Fault Detection Architecture
TL;DR: This paper proposes low cost PRESENT architecture using 80-bit key and 64-bit input data with fault detection capability using different S-Boxes implementations in which both encryption and decryption processes are integrated in one data path.
Journal ArticleDOI
Differential cryptanalysis of the lightweight block cipher cypress-256
TL;DR: 10-round block cipher Cypress-256 is resistant to differential cryptanalysis according to the requirements of practical criterion because of application of the method assuming extension of one-round differential characteristics into multi-round ones.
Book ChapterDOI
IoT-Based Secure Blockchain Framework for Patient Record Management Using MPRESENT Lightweight Block Cipher
TL;DR: In this article , the authors proposed a blockchain framework for storing patient records and its management from IoT devices installed at various units in a hospital and provided a second layer of security in the IoT sensor layer through MPRESENT.
References
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Journal Article
PRESENT: An Ultra-Lightweight Block Cipher
Andrey Bogdanov,Lars R. Knudsen,Gregor Leander,Christof Paar,Axel Poschmann,Matthew Robshaw,Yannick Seurin,C. Vikkelsoe +7 more
TL;DR: In this paper, the authors describe an ultra-lightweight block cipher, present, which is suitable for extremely constrained environments such as RFID tags and sensor networks, but it is not suitable for very large networks such as sensor networks.
Book ChapterDOI
Pushing the limits: a very compact and a threshold implementation of AES
TL;DR: A very compact hardware implementation of AES-128, which requires only 2400 GE, is described, to the best of the knowledge the smallest implementation reported so far and is still susceptible to some sophisticated attacks having enough number of measurements.
Book ChapterDOI
Key-Schedule Cryptoanalysis of IDEA, G-DES, GOST, SAFER, and Triple-DES
TL;DR: New attacks based on the principles of related-key differential cryptanalysis are presented, which can be exploited in actual protocols and cryptanalyze the key schedules of a variety of algorithms, including three-key Iriplc-DES.
Proceedings ArticleDOI
Lightweight Cryptography for FPGAs
Panasayya Yalla,Jens-Peter Kaps +1 more
TL;DR: This paper introduces block cipher independent optimization techniques for Xilinx Spartan3 FPGAs and applies them to the lightweight cryptographic algorithms HIGHT and Present, which are the first reported of these block ciphers on FPGA.
Midori: A Block Cipher for Low Energy
Subhadeep Banik,Andrey Bogdanov,Takanori Isobe,Kyoji Shibutani,Harunaga Hiwatari,Toru Akishita,Francesco Regazzoni +6 more
TL;DR: In this paper, the authors proposed two energy-efficient block ciphers, Midori128i¾? and Midori64i ¾? with block sizes equal to 128 and 64 bits respectively.